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/**
* @file llmessagetemplateparser_tut.cpp
* @date April 2007
* @brief LLMessageTemplateParser unit tests
*
* Copyright (c) 2006-2007, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlife.com/developers/opensource/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at http://secondlife.com/developers/opensource/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
*/
#include <tut/tut.h>
#include "lltut.h"
#include "llmessagetemplateparser.h"
namespace tut
{
struct LLMessageTemplateParserTestData {
LLMessageTemplateParserTestData() : mMessage("unset message")
{
}
~LLMessageTemplateParserTestData()
{
}
void ensure_next(LLTemplateTokenizer & tokens,
std::string value,
U32 line)
{
std::string next = tokens.next();
ensure_equals(mMessage + " token matches", next, value);
ensure_equals(mMessage + " line matches", tokens.line(), line);
}
char * prehash(const char * name)
{
return gMessageStringTable.getString(name);
}
void ensure_block_attributes(std::string identifier,
const LLMessageTemplate * message,
const char * name,
EMsgBlockType type,
S32 number,
S32 total_size)
{
const LLMessageBlock * block = message->getBlock(prehash(name));
identifier = identifier + ":" + message->mName + ":" + name + " block";
ensure(identifier + " exists", block != NULL);
ensure_equals(identifier + " name", block->mName, prehash(name));
ensure_equals(identifier + " type", block->mType, type);
ensure_equals(identifier + " number", block->mNumber, number);
ensure_equals(identifier + " total size", block->mTotalSize, total_size);
}
void ensure_variable_attributes(std::string identifier,
const LLMessageBlock * block,
const char * name,
EMsgVariableType type,
S32 size)
{
const LLMessageVariable * var = block->getVariable(prehash(name));
identifier = identifier + ":" + block->mName + ":" + name + " variable";
ensure(identifier + " exists", var != NULL);
ensure_equals(
identifier + " name", var->getName(), prehash(name));
ensure_equals(
identifier + " type", var->getType(), type);
ensure_equals(identifier + " size", var->getSize(), size);
}
std::string mMessage;
};
typedef test_group<LLMessageTemplateParserTestData> LLMessageTemplateParserTestGroup;
typedef LLMessageTemplateParserTestGroup::object LLMessageTemplateParserTestObject;
LLMessageTemplateParserTestGroup llMessageTemplateParserTestGroup("LLMessageTemplateParser");
template<> template<>
void LLMessageTemplateParserTestObject::test<1>()
// tests tokenizer constructor and next methods
{
mMessage = "test method 1 walkthrough";
LLTemplateTokenizer tokens("first line\nnext\t line\n\nfourth");
ensure_next(tokens, "first", 1);
ensure_next(tokens, "line", 1);
ensure_next(tokens, "next", 2);
ensure_next(tokens, "line", 2);
ensure_next(tokens, "fourth", 4);
tokens = LLTemplateTokenizer("\n\t{ \t Test1 Fixed \n 523 }\n\n");
ensure(tokens.want("{"));
ensure_next(tokens, "Test1", 2);
ensure_next(tokens, "Fixed", 2);
ensure_next(tokens, "523", 3);
ensure(tokens.want("}"));
tokens = LLTemplateTokenizer("first line\nnext\t line\n\nfourth");
ensure(tokens.want("first"));
ensure_next(tokens, "line", 1);
ensure_next(tokens, "next", 2);
ensure_next(tokens, "line", 2);
ensure(tokens.want("fourth"));
}
template<> template<>
void LLMessageTemplateParserTestObject::test<2>()
// tests tokenizer want method
{
// *NOTE: order matters
LLTemplateTokenizer tokens("first line\nnext\t line\n\nfourth");
ensure_equals("wants first token", tokens.want("first"), true);
ensure_equals("doesn't want blar token", tokens.want("blar"), false);
ensure_equals("wants line token", tokens.want("line"), true);
}
template<> template<>
void LLMessageTemplateParserTestObject::test<3>()
// tests tokenizer eof methods
{
LLTemplateTokenizer tokens("single\n\n");
ensure_equals("is not at eof at beginning", tokens.atEOF(), false);
ensure_equals("doesn't want eof", tokens.wantEOF(), false);
ensure_equals("wants the first token just to consume it",
tokens.want("single"), true);
ensure_equals("is not at eof in middle", tokens.atEOF(), false);
ensure_equals("wants eof", tokens.wantEOF(), true);
ensure_equals("is at eof at end", tokens.atEOF(), true);
}
template<> template<>
void LLMessageTemplateParserTestObject::test<4>()
// tests variable parsing method
{
LLTemplateTokenizer tokens(std::string("{ Test0 \n\t\n U32 \n\n }"));
LLMessageVariable * var = LLTemplateParser::parseVariable(tokens);
ensure("test0 var parsed", var != 0);
ensure_equals("name of variable", std::string(var->getName()), std::string("Test0"));
ensure_equals("type of variable is U32", var->getType(), MVT_U32);
ensure_equals("size of variable", var->getSize(), 4);
delete var;
std::string message_string("\n\t{ \t Test1 Fixed \n 523 }\n\n");
tokens = LLTemplateTokenizer(message_string);
var = LLTemplateParser::parseVariable(tokens);
ensure("test1 var parsed", var != 0);
ensure_equals("name of variable", std::string(var->getName()), std::string("Test1"));
ensure_equals("type of variable is Fixed", var->getType(), MVT_FIXED);
ensure_equals("size of variable", var->getSize(), 523);
delete var;
// *NOTE: the parsers call llerrs on invalid input, so we can't really
// test that :-(
}
template<> template<>
void LLMessageTemplateParserTestObject::test<5>()
// tests block parsing method
{
LLTemplateTokenizer tokens("{ BlockA Single { VarX F32 } }");
LLMessageBlock * block = LLTemplateParser::parseBlock(tokens);
ensure("blockA block parsed", block != 0);
ensure_equals("name of block", std::string(block->mName), std::string("BlockA"));
ensure_equals("type of block is Single", block->mType, MBT_SINGLE);
ensure_equals("total size of block", block->mTotalSize, 4);
ensure_equals("number of block defaults to 1", block->mNumber, 1);
ensure_equals("variable type of VarX is F32",
block->getVariableType(prehash("VarX")), MVT_F32);
ensure_equals("variable size of VarX",
block->getVariableSize(prehash("VarX")), 4);
delete block;
tokens = LLTemplateTokenizer("{ Stuff Variable { Id LLUUID } }");
block = LLTemplateParser::parseBlock(tokens);
ensure("stuff block parsed", block != 0);
ensure_equals("name of block", std::string(block->mName), std::string("Stuff"));
ensure_equals("type of block is Multiple", block->mType, MBT_VARIABLE);
ensure_equals("total size of block", block->mTotalSize, 16);
ensure_equals("number of block defaults to 1", block->mNumber, 1);
ensure_equals("variable type of Id is LLUUID",
block->getVariableType(prehash("Id")), MVT_LLUUID);
ensure_equals("variable size of Id",
block->getVariableSize(prehash("Id")), 16);
delete block;
tokens = LLTemplateTokenizer("{ Stuff2 Multiple 45 { Shid LLVector3d } }");
block = LLTemplateParser::parseBlock(tokens);
ensure("stuff2 block parsed", block != 0);
ensure_equals("name of block", std::string(block->mName), std::string("Stuff2"));
ensure_equals("type of block is Multiple", block->mType, MBT_MULTIPLE);
ensure_equals("total size of block", block->mTotalSize, 24);
ensure_equals("number of blocks", block->mNumber, 45);
ensure_equals("variable type of Shid is Vector3d",
block->getVariableType(prehash("Shid")), MVT_LLVector3d);
ensure_equals("variable size of Shid",
block->getVariableSize(prehash("Shid")), 24);
delete block;
}
template<> template<>
void LLMessageTemplateParserTestObject::test<6>()
// tests message parsing method on a simple message
{
std::string message_skel(
"{\n"
"TestMessage Low 1 NotTrusted Zerocoded\n"
"// comment \n"
" {\n"
"TestBlock1 Single\n"
" { Test1 U32 }\n"
" }\n"
" {\n"
" NeighborBlock Multiple 4\n"
" { Test0 U32 }\n"
" { Test1 U32 }\n"
" { Test2 U32 }\n"
" }\n"
"}");
LLTemplateTokenizer tokens(message_skel);
LLMessageTemplate * message = LLTemplateParser::parseMessage(tokens);
ensure("simple message parsed", message != 0);
ensure_equals("name of message", std::string(message->mName), std::string("TestMessage"));
ensure_equals("frequency is Low", message->mFrequency, MFT_LOW);
ensure_equals("trust is untrusted", message->mTrust, MT_NOTRUST);
ensure_equals("message number", message->mMessageNumber, (U32)((255 << 24) | (255 << 16) | 1));
ensure_equals("message encoding is zerocoded", message->mEncoding, ME_ZEROCODED);
ensure_equals("message deprecation is notdeprecated", message->mDeprecation, MD_NOTDEPRECATED);
LLMessageBlock * block = message->getBlock(prehash("NonexistantBlock"));
ensure("Nonexistant block does not exist", block == 0);
delete message;
}
template<> template<>
void LLMessageTemplateParserTestObject::test<7>()
// tests message parsing method on a deprecated message
{
std::string message_skel(
"{\n"
"TestMessageDeprecated High 34 Trusted Unencoded Deprecated\n"
" {\n"
"TestBlock2 Single\n"
" { Test2 S32 }\n"
" }\n"
"}");
LLTemplateTokenizer tokens(message_skel);
LLMessageTemplate * message = LLTemplateParser::parseMessage(tokens);
ensure("deprecated message parsed", message != 0);
ensure_equals("name of message", std::string(message->mName), std::string("TestMessageDeprecated"));
ensure_equals("frequency is High", message->mFrequency, MFT_HIGH);
ensure_equals("trust is trusted", message->mTrust, MT_TRUST);
ensure_equals("message number", message->mMessageNumber, (U32)34);
ensure_equals("message encoding is unencoded", message->mEncoding, ME_UNENCODED);
ensure_equals("message deprecation is deprecated", message->mDeprecation, MD_DEPRECATED);
delete message;
}
void LLMessageTemplateParserTestObject::test<8>()
// tests message parsing on RezMultipleAttachmentsFromInv, a possibly-faulty message
{
std::string message_skel(
"{\n\
RezMultipleAttachmentsFromInv Low 452 NotTrusted Zerocoded\n\
{\n\
AgentData Single\n\
{ AgentID LLUUID }\n\
{ SessionID LLUUID }\n\
} \n\
{\n\
HeaderData Single\n\
{ CompoundMsgID LLUUID } // All messages a single \"compound msg\" must have the same id\n\
{ TotalObjects U8 }\n\
{ FirstDetachAll BOOL }\n\
}\n\
{\n\
ObjectData Variable // 1 to 4 of these per packet\n\
{ ItemID LLUUID }\n\
{ OwnerID LLUUID }\n\
{ AttachmentPt U8 } // 0 for default\n\
{ ItemFlags U32 }\n\
{ GroupMask U32 }\n\
{ EveryoneMask U32 }\n\
{ NextOwnerMask U32 }\n\
{ Name Variable 1 }\n\
{ Description Variable 1 }\n\
}\n\
}\n\
");
LLTemplateTokenizer tokens(message_skel);
LLMessageTemplate * message = LLTemplateParser::parseMessage(tokens);
ensure("RezMultipleAttachmentsFromInv message parsed", message != 0);
ensure_equals("name of message", message->mName, prehash("RezMultipleAttachmentsFromInv"));
ensure_equals("frequency is low", message->mFrequency, MFT_LOW);
ensure_equals("trust is not trusted", message->mTrust, MT_NOTRUST);
ensure_equals("message number", message->mMessageNumber, (U32)((255 << 24) | (255 << 16) | 452));
ensure_equals("message encoding is zerocoded", message->mEncoding, ME_ZEROCODED);
ensure_block_attributes(
"RMAFI", message, "AgentData", MBT_SINGLE, 1, 16+16);
LLMessageBlock * block = message->getBlock(prehash("AgentData"));
ensure_variable_attributes("RMAFI",
block, "AgentID", MVT_LLUUID, 16);
ensure_variable_attributes("RMAFI",
block, "SessionID", MVT_LLUUID, 16);
ensure_block_attributes(
"RMAFI", message, "HeaderData", MBT_SINGLE, 1, 16+1+1);
block = message->getBlock(prehash("HeaderData"));
ensure_variable_attributes(
"RMAFI", block, "CompoundMsgID", MVT_LLUUID, 16);
ensure_variable_attributes(
"RMAFI", block, "TotalObjects", MVT_U8, 1);
ensure_variable_attributes(
"RMAFI", block, "FirstDetachAll", MVT_BOOL, 1);
ensure_block_attributes(
"RMAFI", message, "ObjectData", MBT_VARIABLE, 1, -1);
block = message->getBlock(prehash("ObjectData"));
ensure_variable_attributes("RMAFI", block, "ItemID", MVT_LLUUID, 16);
ensure_variable_attributes("RMAFI", block, "OwnerID", MVT_LLUUID, 16);
ensure_variable_attributes("RMAFI", block, "AttachmentPt", MVT_U8, 1);
ensure_variable_attributes("RMAFI", block, "ItemFlags", MVT_U32, 4);
ensure_variable_attributes("RMAFI", block, "GroupMask", MVT_U32, 4);
ensure_variable_attributes("RMAFI", block, "EveryoneMask", MVT_U32, 4);
ensure_variable_attributes("RMAFI", block, "NextOwnerMask", MVT_U32, 4);
ensure_variable_attributes("RMAFI", block, "Name", MVT_VARIABLE, 1);
ensure_variable_attributes("RMAFI", block, "Description", MVT_VARIABLE, 1);
delete message;
}
}
|